Wetlands Conservation. Группа авторов

Figure 1.2 Regional distribution (%) of the wetland area

      Source: Davidson et al. (2018) and Ramsar Convention on Wetlands; WORLD OUTLOOK, 2018 (2018). © Ramsar Convention Secretariat.

1.4 Status and Impacts on the Wetlands Ecosystem

      The wetland ecosystem is a very sensitive aspect of the ecological landscape. The health of flora and fauna species is associated with the conditions and distribution of the wetlands. Any change on a small and large scale in the wetland ecological system impacts the biodiversity and habitat of the species. The changes in wetlands leads to changes in number of species, distribution of the species, alteration in migratory bird routes, and changes in community structures and species interconnection (Erwin 2009). Rapid changes in population dynamics or any other environmental or climate change often result in wetland encroachment due to increasing demand for ecosystem services in wetlands (Mitchell 2013; Davidson 2014; Dixon et al. 2016). These wetlands are increasingly degraded, and the provision of wetlands services is at serious risk. Based on an analysis of 189 reports on change in wetlands system, Davidson outlined in 2014, that ‘over a long period wetlands have been converted to other land‐use practices and have lost more than 50% since 1900 AD and more than 87% since the beginning of the 18th century’. Trustworthy information on the spatial distribution of wetlands would help academics, policymakers, scientists, and environmental conservationists understand the location, area, distribution and current physio‐biological status of global wetlands and develop efficient conservation policies measures and management plans. However, globally (Davidson 2014; Dixon et al. 2016) and at regional levels some work has been done on recent changes in global wetlands, distribution, loss and status.

Wetlands are currently at higher risk of climate change for example alternations have been noted in coral reefs, mangroves and tropical forests, sub‐arctic forests, prairies and arctic/alpine areas. Inland freshwater wetlands are likely to be affected mainly by precipitation patterns and more frequent or intense droughts, storms and floods. Changes in rainfall patterns and volume entering river systems would change water availability to coastal wetlands including deltas and estuaries, affecting salinity and sediment and nutrient supply. Melting will cause mountain snowfields and glaciers that feed many of the world's largest river and wetland systems will disappear. Water quality will be harmed as a result of rising water temperatures, floods, and droughts, which will exacerbate various forms of pollution. Many semi‐arid regions are uniquely vulnerable to climate change impacts and are expected to undergo severe anthropogenic and natural pressures for water resources and wetlands. There may be many other minor hazards specific to different wetlands, such as deterioration and loss of habitat, conversion for agriculture and infrastructure development, changing land use and land cover, urbanisation, pollution from agricultural runoff, sewage and solid waste disposal, encroachment and remediation of wetlands, degradation of wetlands, the infestation of weeds and alien species invasions, poaching of wildlife and man‐wildlife conflict.

      Xu et al. (2019) has identified 2414 sites of international importance wetlands covering 254543972 ha and have been recognized globally significant. According to Xu et al. (2019), 2303 wetlands of global significance are distributed unevenly across the globe's